Background

Oxidative stress is a widely seen phenomenon in several carcinomas. Increasing evidence also suggests that it has a significant role in the development of epithelial ovarian carcinoma (EOC). 8-Hydroxydeoxyguanosine (8-OHdG) is one of the main indicators of oxidative stress and increased expression of 8-OHdG has previously been seen in EOC. DJ-1 is an oncoprotein connected to oxidative stress regulation, but its role in ovarian cancer is not well known. We investigated redox status in different histotypes of EOC by measuring serum 8-OHdG and DJ-1 concentrations and their associations with known prognostic factors.

Methods

Serum samples from newly diagnosed EOC patients were collected in 1996–2009 and stored at the Department of Obstetrics and Gynecology, Oulu University Hospital. Serum 8-OHdG and DJ-1 levels were measured by using commercially available ELISA kits. Clinical data was gathered retrospectively from the patients` files. Results were analyzed by using SPSS software.

Conclusions

An elevated serum 8-OHdG level is a significant predictor of poor prognosis, especially in cases of the endometrioid subtype of ovarian carcinoma. High 8-OHdG levels are associated with all traditional factors of poor prognosis in ovarian cancer and they also predict earlier development of platinum resistance. These results could be valuable when deciding the primary treatment mode for EOC patients.

Ovarian cancer is the seventh most common cancer worldwide and one of the main causes of cancer-related death. Usually it is diagnosed at an advanced stage when the prognosis is poor. In most cases relapse occurs within two years, the patient becomes chemoresistant and five-year survival is only 45 % at best. The known risk factors of ovarian cancer are infertility, family history, smoking and hormone replacement therapy, but the main reasons for the occurrence of ovarian cancer are still unclear. In recent years many studies have shown the role of oxidative stress in the development of ovarian and other cancers.

Evidence suggests that ovulation increases the levels of inflammatory agents, which can further lead to mutations in DNA [1–4]. Ovulation creates a void on the ovarian surface, which leads to the wound-healing process, with increased levels of inflammatory mediators and reactive oxygen species (ROS) [1–3]. It has been suggested that cancer cells from the fallopian tubes, the cervix or endometriotic lesions migrate to the ovaries and form tumors near the corpus luteum [5].

Reactive oxygen species are formed either from incomplete reduction of oxygen during cellular respiration, or following exposure to external agents such as ultraviolet light, ionizing radiation or redox-state-modifying drugs, which are factors known to be connected with carcinogenesis [6]. Because of their unpaired electrons, ROS molecules are very unstable and react easily with other molecules. They can interact directly with DNA and they can oxidize lipids and proteins, generating intermediates that react with DNA, a cascade with the potential to cause DNA mutations when antioxidant defenses are overwhelmed [6]. The hydroxyl radical (•OH) is extremely unstable and reacts rapidly with other molecules. When it attacks DNA, 8-hydroxydeoxyguanosine (8-OHdG) can be formed. Tissue expression of 8-OHdG and its serum concentrations are associated with the prognosis of several carcinomas, including ovarian cancer, breast cancer, colorectal cancer, cutaneous melanoma, non-small-cell lung cancer, diffuse large B-cell lymphoma and esophageal cancer [7–13]. In colorectal carcinomas, immunohistochemical expression levels of 8-OHdG and nitrotyrosine are significantly higher in malignant tissues compared with adenomas or non-tumorous tissues of the colon [14, 15].

The redox-regulated multifunctional protein DJ-1 is involved in diverse cell processes such as chemotaxis, cell migration, cell adhesion, angiogenesis, apoptosis, cell–extracellular matrix interactions and immune regulation [16]. It protects cells from oxidative stress, detoxifies reactive oxygen species and is converted into a variant with a more acidic isoelectric point [16]. Overexpression of DJ-1 increases the chemoresistance of neoplastic cells by inhibiting apoptotic pathways [16, 17]. It has been associated with early-onset parkinsonism [18], hence its other name PARK7, and it is overexpressed in several malignant tumors including breast, lung, glottic and esophageal carcinomas [19–22]. Increased serum DJ-1 levels have been reported in patients with metastatic uveal melanoma, pancreatic cancer and endometrioid-type endometrial cancers (EECs) [23–25].

We have previously reported that high serum and tumor tissue levels of 8-OHdG in epithelial ovarian carcinoma (EOC) patients are associated with traditional factors of poor prognosis and also with serous histology [26]. In this previous study, 75 % of patients had serous histology and we were therefore unable to assess the prognostic value in different histological subtypes. We included 35 patients from the previous study to the current study (32 serous, 2 endometrioid and 1 clear cell histology) aiming to evaluate the roles of serum 8-OHdG and DJ-1 as prognostic factors in different histological types of epithelial ovarian cancer.

The study involved 112 epithelial ovarian cancer patients diagnosed and treated at Oulu University Hospital in 1996–2009. In most cases, the patients were operated upon at Oulu University Hospital. In some cases the primary operation was in the central hospital, as the tumor was assumed to be benign. In those cases, the staging operation was carried out at Oulu University Hospital. Operations were categorized as optimal if no macroscopic tumor remained and suboptimal if there was any residual tumor. After the operation, the patients underwent taxane- and platinum-based chemotherapy for a total of six treatments at three-week intervals. If the patients showed a complete response after chemotherapy, they were transferred to a routine follow-up program.

The patient data was retrospectively collected from the archives. Age, histology, grade, stage, optimality of the operation, resistance to platinum-based chemotherapy, disease-free survival (DFS) and overall survival (OS) were recorded (Table 1). Recurrence was diagnosed according to radiological RECIST 1.1 criteria [27]. Platinum resistance was defined as progression during platinum treatment or recurrence < 6 months after the last platinum dose. Overall survival was calculated as the time from diagnosis to the time of death.

Table 1

Patient characteristics

Histology

Serous

38 (33.9 %)

Mucinous

20 (17.9 %)

Endometrioid

34 (30.4 %)

Clear-cell

20 (17.9 %)

Age

22–85 (mean 59)

Stage

I–II

50 (44.6 %)

III–IV

60 (53.6 %)

Missing

2 (1.8 %)

Grade

1

22 (19.6 %)

2

17 (15.2 %)

3

71 (63.4 %)

Missing

2 (1.8 %)

Surgical Outcome

Optimal

55 (49.1 %)

Suboptimal

21 (18.8 %)

Inoperable

35 (31.3 %)

Missing

1 (0.9 %)

Platinum resistance

Yes

43 (38.4 %)

No

48 (42.9 %)

Other Reason

2 (1.8 %)

Missing

19 (17.0 %)

Recurrence

Yes

58 (51.8 %)

No

51 (45.5 %)

Missing

3 (2.7 %)

Serum samples were collected from every patient the day before the operation or at the time of diagnosis and the samples were stored at −70 °C until use. Commercial ELISA kits for assay of 8-OHdG (JaICA, Japan) and DJ-1 (Nordic BioSite, Sweden) were used. The assays were carried out by following the manufacturers’ instructions, except that sample filtering was omitted.

The data was analyzed by using IBM SPSS Statistics for Windows 21.0.0.0 software. The significance of associations was assessed by using the Mann–Whitney U test and the Kruskal–Wallis test. In survival analysis, serum concentrations were re-formatted as two-class variables using the median level as a cut-off point. Survival was analyzed by using Kaplan–Meier curves and the log-rank test. Cox multivariate regression analysis was used for multivariate analysis. Probability values < 0.05 were considered significant.

This study was approved by the National Supervisory Authority for Welfare and Health (1339/05.01.00.06/2009) and The Regional Ethics Committee of the Northern Ostrobothnia Hospital District (53/2008).

Associations between prognostic factors and serum concentrations of 8-OHdG in the whole study population, in the endometrioid subgroup, and levels of DJ-1

Serous histology

Platinum resistance

Stage III–IV

Inoperability

Grade

High 8-OHdG

0.033

0.002

0.009

0.012

NS

High 8-OHdG

NS

0.007

NS

0.025

NS

Endometrioid histology

High DJ-1

0.089

NS

NS

NS

0.029

Values are p-values, NS = non-significant

High DJ-1 levels were significantly associated with a high histological grade (p = 0.029) and non-significantly associated with serous histology versus other histology (p = 0.089). No associations between levels of 8-OHdG and the stage of the disease, or 8-OHdG and DJ-1 levels were found.

Kaplan–Meier curves demonstrating relationships between serum 8-OHdG concentrations and disease-free survival in the whole study population (a), overall survival in the whole study population (b), disease-free survival in cases of carcinoma with endometrioid histology (c) and overall survival in the endometrioid histology group (d)

We report here that the preoperative serum concentration of 8-OHdG is a highly significant prognostic marker in cases of EOC, especially in endometrioid ovarian carcinomas. On the other hand, serum DJ-1 levels seem not to have prognostic significance in cases of EOC.

As one of the most studied oxidative stress markers, 8-OHdG has been investigated by way of immunohistochemistry in connection with various carcinomas, but via serum 8-OHdG levels in only a few cancer types. The main repair enzyme connected with 8-OHdG is (human) 8-oxoguanine DNA glycosylase 1 (hOGG1), which cleaves damaged guanosine from DNA and thereafter it is secreted to extracellular fluids [28]. The existing data suggest that extracellular 8-OHdG levels are not affected by diet, cell death or artifact formation [29]. High serum 8-OHdG levels have been recognized as a predictor of short-term survival in non-small-cell lung cancer patients [11], serous ovarian cancer patients [26, 30] and in children with acute leukemia [31]. In one of our previous studies [26] we reported that high serum 8-OHdG levels as well as high 8-OHdG immunohistochemical expression were associated with poor clinical outcome in cases of serous ovarian cancer. However, that particular study was focused mainly on serous carcinomas, serum 8-OHdG associated to poor survival only in low grade disease, we were not able to assess progression-free survival and prognostic significance was not observed in multivariate analysis. On the basis of the results, we suggested that there could be variation in oxidative stress levels between different ovarian cancer histological subtypes, and 8-OHdG levels could possibly reflect chemoresistance – hence the current study was undertaken.

We have previously reported higher 8-OHdG tissue expression in borderline ovarian tumors than in benign ones, suggesting a role of 8-OHdG in early ovarian epithelial carcinogenesis [32]. Epithelial ovarian cancers can be assigned to different groups not only by their different histological appearances but also by their obviously different carcinogenetic patterns. In this study serous carcinomas were associated with the highest serum 8-OHdG levels, but the endometrioid histotype was the one where the most significant association between serum 8-OHdG levels and the outcome of the disease was observed. Some endometrioid ovarian cancers are known to arise from atypical endometriosis. We have previously shown biochemical connections between endometriosis and endometriosis-associated endometrioid cancers. In those studies immunohistochemical 8-OHdG expression in endometrioid cancer tissue was significantly lower than in the related endometriosis tissue [33]. This finding suggests that at a certain phase of cancer development, DNA guanine adducts are degraded at the tissue level and 8-OHdG is released to the serum. Thus, 8-OHdG might be a surrogate marker of induced cancer metabolism.

One of the main findings in this study was the association between preoperative serum 8-OHdG levels, not only with all studied traditional prognostic factors, but also with the earlier development of chemoresistance. One of the most important mechanisms of action of platinum regimens used in cases of ovarian carcinoma is based on ROS generation. Therefore, we cannot rule out the possibility that the association with chemoresistance could be explained by the induction of antioxidant enzymes in the most oxidatively stressed tumors. Our observation of a lack of association between serum concentrations of 8-OHdG and DJ-1 is not necessarily contradictory to this hypothesis, since there are also DJ-1-independent redox-regulating pathways such as Nrf2, which recently was connected to platinum resistance in cases of bladder cancer [34]. On the other hand, elevated levels of ROS may simply generate mutations that are able to favor the survival of some cancer cell subpopulations.

High disease burden, poor differentiation and suboptimal surgical outcome are well characterized prognostic factors in all subtypes of ovarian cancer. However, an elevated serum 8-OHdG level was an even more powerful predictor of disease relapse, but only in connection with endometrioid histology. Although it did not significantly reflect OS in multivariate analysis, DFS is a valid endpoint from a clinical point of view. The median survival time of the patients with an endometrioid histotype and high 8-OHdG serum concentrations was 48 months, compared with 111 months in the endometrioid ovarian cancer patients with low 8-OHdG serum levels. In clear-cell and mucinous cancer types the serum 8-OHdG level was not of prognostic value in this patient cohort.

DJ-1 is an oxidative response protein with oncogenic properties. It induces PI3K-AKT and ERK1/3 signaling, influences c-myc expression and provides protection from ROS-induced apoptosis in vitro [35–37]. Increased serum DJ-1 levels have been detected in endometrioid-type endometrial cancer (EEC) patients compared with healthy controls [25]. In the same study, higher DJ-1 serum levels and immunohistochemical expression in the serous type of endometrial cancer (ESC) were observed when set against the levels in cases of EEC. In ovarian cancer, DJ-1 levels, measured by PCR from effusions, were more expressed at an advanced stage [38]. In gastric carcinoma DJ-1 plays an important role in the development of peritoneal carcinomatosis in vitro [39] and in breast cancer low DJ-1 immunohistochemical and FISH (fluorescence in situ hybridization) expression seems to predict pathological complete remission after neoadjuvant chemotherapy [40]. High DJ-1 immunohistochemical expression in pancreatic cancer is associated with chemoresistance [24]. In prostate carcinoma tissue DJ-1 is overexpressed compared with that in benign hyperplasia [41], and in non-small-cell lung cancer overexpression has been described compared with that in normal lung tissue [42]. In the current material elevated DJ-1 concentrations were observed in patients with high-grade EOC, but no associations with other traditional prognostic factors or survival were found.

The present results confirm the hypothesis that different epithelial ovarian cancer histotypes represent different carcinogenic backgrounds and clinical behavior and they should be categorized in more detail according to their biomolecular characteristics. Serum concentrations of 8-OHdG also predict the development of platinum resistance and could thus assist in the choice of chemotherapy. This is in line with the results of our previous clinical pilot study of biomarkers of the response to bevacizumab in serous ovarian cancer. In that study, immunohistochemical expression of 8-OHdG appeared to predict a longer-term response to bevacizumab treatment [43].

An elevated serum 8-OHdG level is a highly significant predictor of poor prognosis, especially in cases of the endometrioid subtype of epithelial ovarian cancer. In addition, high 8-OHdG levels predict earlier development of platinum resistance, which may have a significant clinical impact if confirmed in future studies. These results could be beneficial as regards chemotherapy and maintenance treatment in cases of ovarian cancer.

Acknowledgements

We thank Elina Huikari for skilful technical assistance in ELISAs.

Competing interests

The authors declare that they have no competing interests.

Authors’ contributions

MPE collected the clinical data, PK performed statistical analysis, UP conceived the study and participated in its design. All authors participated in the writing of the manuscript and all authors read and approved the manuscript.

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